A critical step in the folding of influenza virus HA determined with a novel folding assay

Maggioni, Marco; Liscaljet, I. Marije; Braakman, Ineke

doi:10.1038/nsmb897

Cited by 13 publications

(17 citation statements)

References 38 publications

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“…Therefore, HA belongs to a category of proteins that require chaperone assistance only in the early stages of folding. This is consistent with a recent report showing that the HA folding pathway could be completely reconstituted in vitro, provided that the early stages of folding occurred in the intact cell (22). Second, there are polypeptides for which the co-translational chaperone assistance is insufficient to achieve a conformation committed to folding, and any perturbation in chaperone assistance during early post-translational stages could be fatal.…”

Section: Discussionsupporting

confidence: 78%

Productive Folding of Tyrosinase Ectodomain Is Controlled by the Transmembrane Anchor

Popescu

Mares

Zdrentu

et al. 2006

Journal of Biological Chemistry

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Transmembrane domains (TMDs) are known as structural elements required for the insertion into the membrane of integral membrane proteins. We have provided here an example showing that the presence of the TMD is compulsory for the productive folding pathway of a membrane-anchored glycoprotein. Tyrosinase, a type I transmembrane protein whose insertion into the melanosomal membrane initiates melanin synthesis, is misfolded and degraded when expressed as a truncated polypeptide. We used constructs of tyrosinase ectodomain fused with chimeric TMDs or glycosylphosphatidylinositol anchor to gain insights into how the TMD enables the productive folding pathway of the ectodomain. We found that in contrast to the soluble constructs, the membrane-anchored chimeras fold into the native conformation, which allows their endoplasmic reticulum exit. They recruit calnexin to monitor their productive folding pathway characterized by the posttranslational formation of buried disulfides. Lacking calnexin assistance, the truncated mutant is arrested in an unstable conformation bearing exposed disulfides. We showed that the transmembrane anchor of a protein may crucially, albeit indirectly, control the folding pathway of the ectodomain.

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Section: Discussionsupporting

confidence: 78%

Productive Folding of Tyrosinase Ectodomain Is Controlled by the Transmembrane Anchor

Popescu

Mares

Zdrentu

et al. 2006

Journal of Biological Chemistry

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“…The reticulocyte lysate does not contain added reducing agent; therefore, disulfide bond formation can occur co-and post-translationally within proteins translocated into the ER of the SP cells (17). The electrophoretic mobility of the reduced, native, and disulfide-bonded intermediates of HA have been characterized extensively elsewhere (18), allowing us to follow folding by assessing the mobility of translation products on non-reducing gels. When the mobility of translation products was analyzed following reduction, two distinct bands were observed (Fig.…”

Section: Resultsmentioning

confidence: 99%

Substrate Specificity of the Oxidoreductase ERp57 Is Determined Primarily by Its Interaction with Calnexin and Calreticulin

Jessop¹,

Tavender²,

Watkins

et al. 2009

Journal of Biological Chemistry

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The formation of disulfides within proteins entering the secretory pathway is catalyzed by the protein disulfide isomerase family of endoplasmic reticulum localized oxidoreductases. One such enzyme, ERp57, is thought to catalyze the isomerization of non-native disulfide bonds formed in glycoproteins with unstructured disulfide-rich domains. Here we investigated the mechanism underlying ERp57 specificity toward glycoprotein substrates and the interdependence of ERp57 and the calnexin cycle for their correct folding. Our results clearly show that ERp57 must be physically associated with the calnexin cycle to catalyze isomerization reactions with most of its substrates. In addition, some glycoproteins only require ERp57 for correct disulfide formation if they enter the calnexin cycle. Hence, the specificity of ER oxidoreductases is not only determined by the physical association of enzyme and substrate but also by accessory factors, such as calnexin and calreticulin in the case of ERp57. These conclusions suggest that the calnexin cycle has evolved with a specialized oxidoreductase to facilitate native disulfide formation in complex glycoproteins.

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“…Flu-HA belongs to a small minority of proteins for which the folding pathway is well characterized (Braakman et al, 1991(Braakman et al, , 1992Daniels et al, 2003;Maggioni et al, 2005). Flu-HA undergoes core N-linked glycosylation of seven asparagine residues, and defined hierarchical introduction of six disulfide bonds in the ER, followed by complex glycosylation in the Golgi apparatus (Braakman et al, 1991;Maggioni et al, 2005). To study protein maturation, we radioactively labeled newly synthesized proteins with a short (3 min) 35 S-methionine pulse under normoxic (21% O 2 ) or anoxic (0.0% O 2 ) conditions.…”

Section: Hypoxia Impairs Protein Maturation In the Ermentioning

confidence: 99%

Two phases of disulfide bond formation have differing requirements for oxygen

Koritzinsky

Levitin

Beucken

et al. 2013

Journal of Cell Biology

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A critical step in the folding of influenza virus HA determined with a novel folding assay

Cited by 13 publications

References 38 publications

Productive Folding of Tyrosinase Ectodomain Is Controlled by the Transmembrane Anchor

Productive Folding of Tyrosinase Ectodomain Is Controlled by the Transmembrane Anchor

Substrate Specificity of the Oxidoreductase ERp57 Is Determined Primarily by Its Interaction with Calnexin and Calreticulin

Two phases of disulfide bond formation have differing requirements for oxygen

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